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Incoherent transport across the strange-metal regime of overdoped cuprates

Author

Listed:
  • J. Ayres

    (University of Bristol
    Radboud University
    Radboud University)

  • M. Berben

    (Radboud University
    Radboud University)

  • M. Čulo

    (Radboud University
    Radboud University
    Institut za fiziku)

  • Y.-T. Hsu

    (Radboud University
    Radboud University)

  • E. Heumen

    (University of Amsterdam
    Science)

  • Y. Huang

    (University of Amsterdam)

  • J. Zaanen

    (Leiden University)

  • T. Kondo

    (University of Tokyo)

  • T. Takeuchi

    (Toyota Technological Institute)

  • J. R. Cooper

    (University of Cambridge)

  • C. Putzke

    (University of Bristol)

  • S. Friedemann

    (University of Bristol)

  • A. Carrington

    (University of Bristol)

  • N. E. Hussey

    (University of Bristol
    Radboud University
    Radboud University)

Abstract

Strange metals possess highly unconventional electrical properties, such as a linear-in-temperature resistivity1–6, an inverse Hall angle that varies as temperature squared7–9 and a linear-in-field magnetoresistance10–13. Identifying the origin of these collective anomalies has proved fundamentally challenging, even in materials such as the hole-doped cuprates that possess a simple bandstructure. The prevailing consensus is that strange metallicity in the cuprates is tied to a quantum critical point at a doping p* inside the superconducting dome14,15. Here we study the high-field in-plane magnetoresistance of two superconducting cuprate families at doping levels beyond p*. At all dopings, the magnetoresistance exhibits quadrature scaling and becomes linear at high values of the ratio of the field and the temperature, indicating that the strange-metal regime extends well beyond p*. Moreover, the magnitude of the magnetoresistance is found to be much larger than predicted by conventional theory and is insensitive to both impurity scattering and magnetic field orientation. These observations, coupled with analysis of the zero-field and Hall resistivities, suggest that despite having a single band, the cuprate strange-metal region hosts two charge sectors, one containing coherent quasiparticles, the other scale-invariant ‘Planckian’ dissipators.

Suggested Citation

  • J. Ayres & M. Berben & M. Čulo & Y.-T. Hsu & E. Heumen & Y. Huang & J. Zaanen & T. Kondo & T. Takeuchi & J. R. Cooper & C. Putzke & S. Friedemann & A. Carrington & N. E. Hussey, 2021. "Incoherent transport across the strange-metal regime of overdoped cuprates," Nature, Nature, vol. 595(7869), pages 661-666, July.
    • Handle: RePEc:nat:nature:v:595:y:2021:i:7869:d:10.1038_s41586-021-03622-z
    DOI: 10.1038/s41586-021-03622-z
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    Cited by:

    1. Carsten Putzke & Chunyu Guo & Vincent Plisson & Martin Kroner & Thibault Chervy & Matteo Simoni & Pim Wevers & Maja D. Bachmann & John R. Cooper & Antony Carrington & Naoki Kikugawa & Jennifer Fowlie , 2023. "Layered metals as polarized transparent conductors," Nature Communications, Nature, vol. 14(1), pages 1-7, December.
    2. Shu Cai & Jinyu Zhao & Ni Ni & Jing Guo & Run Yang & Pengyu Wang & Jinyu Han & Sijin Long & Yazhou Zhou & Qi Wu & Xianggang Qiu & Tao Xiang & Robert J. Cava & Liling Sun, 2023. "The breakdown of both strange metal and superconducting states at a pressure-induced quantum critical point in iron-pnictide superconductors," Nature Communications, Nature, vol. 14(1), pages 1-7, December.

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